/*
 *
 * @APPLE_LICENSE_HEADER_START@
 *
 * Copyright (c) 1999-2008 Apple Inc.  All Rights Reserved.
 *
 * This file contains Original Code and/or Modifications of Original Code
 * as defined in and that are subject to the Apple Public Source License
 * Version 2.0 (the 'License'). You may not use this file except in
 * compliance with the License. Please obtain a copy of the License at
 * http://www.opensource.apple.com/apsl/ and read it before using this
 * file.
 * 
 * The Original Code and all software distributed under the License are
 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
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 * @APPLE_LICENSE_HEADER_END@
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 */
/*
    File:       QTSSFlowControlModule.cpp

    Contains:   Implements object defined in .h file
    

    
    
*/

#include <stdio.h>

#include "QTSSFlowControlModule.h"
#include "OSHeaders.h"
#include "QTSSModuleUtils.h"
#include "MyAssert.h"

//Turns on printfs that are useful for debugging
#define FLOW_CONTROL_DEBUGGING 0

// ATTRIBUTES IDs

static QTSS_AttributeID sNumLossesAboveTolAttr          = qtssIllegalAttrID;
static QTSS_AttributeID sNumLossesBelowTolAttr          = qtssIllegalAttrID;
static QTSS_AttributeID sNumWorsesAttr                  = qtssIllegalAttrID;

// STATIC VARIABLES

static QTSS_ModulePrefsObject sPrefs = NULL;
static QTSS_PrefsObject     sServerPrefs    = NULL;
static QTSS_ServerObject    sServer     = NULL;

// Default values for preferences
static UInt32   sDefaultLossThinTolerance       = 30;
static UInt32   sDefaultNumLossesToThin         = 3;
static UInt32   sDefaultLossThickTolerance      = 5;
static UInt32   sDefaultLossesToThick           = 6;
static UInt32   sDefaultWorsesToThin            = 2;
static Bool16   sDefaultModuleEnabled      = true;

// Current values for preferences
static UInt32   sLossThinTolerance      = 30;
static UInt32   sNumLossesToThin        = 3;
static UInt32   sLossThickTolerance     = 5;
static UInt32   sLossesToThick          = 6;
static UInt32   sWorsesToThin           = 2;
static Bool16   sModuleEnabled      = true;

// Server preference we respect
static Bool16   sDisableThinning       = false;


// FUNCTION PROTOTYPES

static QTSS_Error   QTSSFlowControlModuleDispatch(QTSS_Role inRole, QTSS_RoleParamPtr inParamBlock);
static QTSS_Error   Register(QTSS_Register_Params* inParams);
static QTSS_Error   Initialize(QTSS_Initialize_Params* inParams);
static QTSS_Error   RereadPrefs();
static QTSS_Error   ProcessRTCPPacket(QTSS_RTCPProcess_Params* inParams);
static void         InitializeDictionaryItems(QTSS_RTPStreamObject inStream);




QTSS_Error QTSSFlowControlModule_Main(void* inPrivateArgs)
{
    return _stublibrary_main(inPrivateArgs, QTSSFlowControlModuleDispatch);
}

QTSS_Error  QTSSFlowControlModuleDispatch(QTSS_Role inRole, QTSS_RoleParamPtr inParamBlock)
{
    switch (inRole)
    {
        case QTSS_Register_Role:
            return Register(&inParamBlock->regParams);
        case QTSS_Initialize_Role:
            return Initialize(&inParamBlock->initParams);
        case QTSS_RereadPrefs_Role:
            return RereadPrefs();
        case QTSS_RTCPProcess_Role:
            return ProcessRTCPPacket(&inParamBlock->rtcpProcessParams);
    }
    return QTSS_NoErr;
}

QTSS_Error Register(QTSS_Register_Params* inParams)
{
    // Do role setup
    (void)QTSS_AddRole(QTSS_Initialize_Role);
    (void)QTSS_AddRole(QTSS_RTCPProcess_Role);
    (void)QTSS_AddRole(QTSS_RereadPrefs_Role);
    

    // Add other attributes
    static char*        sNumLossesAboveToleranceName    =   "QTSSFlowControlModuleLossAboveTol";
    static char*        sNumLossesBelowToleranceName    =   "QTSSFlowControlModuleLossBelowTol";
    static char*        sNumGettingWorsesName           =   "QTSSFlowControlModuleGettingWorses";

    (void)QTSS_AddStaticAttribute(qtssRTPStreamObjectType, sNumLossesAboveToleranceName, NULL, qtssAttrDataTypeUInt32);
    (void)QTSS_IDForAttr(qtssRTPStreamObjectType, sNumLossesAboveToleranceName, &sNumLossesAboveTolAttr);
    
    (void)QTSS_AddStaticAttribute(qtssRTPStreamObjectType, sNumLossesBelowToleranceName, NULL, qtssAttrDataTypeUInt32);
    (void)QTSS_IDForAttr(qtssRTPStreamObjectType, sNumLossesBelowToleranceName, &sNumLossesBelowTolAttr);
    
    (void)QTSS_AddStaticAttribute(qtssRTPStreamObjectType, sNumGettingWorsesName, NULL, qtssAttrDataTypeUInt32);
    (void)QTSS_IDForAttr(qtssRTPStreamObjectType, sNumGettingWorsesName, &sNumWorsesAttr);

    // Tell the server our name!
    static char* sModuleName = "QTSSFlowControlModule";
    ::strcpy(inParams->outModuleName, sModuleName);

    return QTSS_NoErr;
}

QTSS_Error Initialize(QTSS_Initialize_Params* inParams)
{
    QTSSModuleUtils::Initialize(inParams->inMessages, inParams->inServer, inParams->inErrorLogStream);
    sServer = inParams->inServer;
    sServerPrefs = inParams->inPrefs;
    sPrefs = QTSSModuleUtils::GetModulePrefsObject(inParams->inModule);
    return RereadPrefs();
}


QTSS_Error RereadPrefs()
{
    //
    // Use the standard GetPref routine to retrieve the correct values for our preferences
    QTSSModuleUtils::GetAttribute(sPrefs, "loss_thin_tolerance",    qtssAttrDataTypeUInt32,
                                &sLossThinTolerance, &sDefaultLossThinTolerance, sizeof(sLossThinTolerance));
    QTSSModuleUtils::GetAttribute(sPrefs, "num_losses_to_thin",     qtssAttrDataTypeUInt32,
                                &sNumLossesToThin,      &sDefaultNumLossesToThin,   sizeof(sNumLossesToThin));
    QTSSModuleUtils::GetAttribute(sPrefs, "loss_thick_tolerance",   qtssAttrDataTypeUInt32,
                                &sLossThickTolerance,   &sDefaultLossThickTolerance, sizeof(sLossThickTolerance));
    QTSSModuleUtils::GetAttribute(sPrefs, "num_losses_to_thick",    qtssAttrDataTypeUInt32,
                                &sLossesToThick,        &sDefaultLossesToThick, sizeof(sLossesToThick));
    QTSSModuleUtils::GetAttribute(sPrefs, "num_worses_to_thin", qtssAttrDataTypeUInt32,
                                &sWorsesToThin,         &sDefaultWorsesToThin, sizeof(sWorsesToThin));
                                
    QTSSModuleUtils::GetAttribute(sPrefs, "flow_control_udp_thinning_module_enabled",  qtssAttrDataTypeBool16,
            &sModuleEnabled, &sDefaultModuleEnabled, sizeof(sDefaultModuleEnabled));

    UInt32 len = sizeof(sDisableThinning);
    (void) QTSS_GetValue(sServerPrefs, qtssPrefsDisableThinning, 0, (void*)&sDisableThinning, &len);
                                
    return QTSS_NoErr;
}


        
Bool16 Is3GPPSession(QTSS_RTCPProcess_Params *inParams)
{

   Bool16 is3GPP = false;
   UInt32 theLen = sizeof(is3GPP);
   (void)QTSS_GetValue(inParams->inClientSession, qtssCliSessIs3GPPSession, 0, (void*)&is3GPP, &theLen);
 
   return is3GPP;
}


QTSS_Error ProcessRTCPPacket(QTSS_RTCPProcess_Params* inParams)
{
    if (!sModuleEnabled || sDisableThinning || Is3GPPSession(inParams) )
    {
        //qtss_printf("QTSSFlowControlModule.cpp:ProcessRTCPPacket processing disabled sModuleEnabled=%d sDisableThinning=%d Is3GPPSession(inParams)=%d\n", sModuleEnabled, sDisableThinning,Is3GPPSession(inParams));
        return QTSS_NoErr;
    }
        
#if FLOW_CONTROL_DEBUGGING
    QTSS_RTPPayloadType* thePayloadType = 0;
    UInt32 thePayloadLen = 0;
    (void)QTSS_GetValuePtr(inParams->inRTPStream, qtssRTPStrPayloadType, 0, (void**)&thePayloadType, &thePayloadLen);
    
    if ((*thePayloadType != 0) && (*thePayloadType == qtssVideoPayloadType))
        qtss_printf("Video track reporting:\n");
    else if ((*thePayloadType != 0) && (*thePayloadType == qtssAudioPayloadType))
        qtss_printf("Audio track reporting:\n");
    else
        qtss_printf("Unknown track reporting\n");
#endif

    //
    // Find out if this is a qtssRTPTransportTypeUDP. This is the only type of
    // transport we should monitor
    QTSS_RTPTransportType theTransportType = qtssRTPTransportTypeUDP;
    UInt32 theLen = sizeof(theTransportType);
    QTSS_Error theErr = QTSS_GetValue(inParams->inRTPStream, qtssRTPStrTransportType, 0, (void*)&theTransportType, &theLen);
    Assert(theErr == QTSS_NoErr);
    
    if (theTransportType != qtssRTPTransportTypeUDP)
        return QTSS_NoErr;
        
    //ALGORITHM FOR DETERMINING WHEN TO MAKE QUALITY ADJUSTMENTS IN THE STREAM:
    
    //This routine makes quality adjustment determinations for the server. It is designed
    //to be flexible: you may swap this algorithm out for another implemented in another module,
    //and this algorithm uses settings that are adjustable at runtime.
    
    //It uses the % loss statistic in the RTCP packets, as well as the "getting better" &
    //"getting worse" fields.

    //Less bandwidth will be served if the loss % of N number of RTCP packets is above M, where
    //N and M are runtime settings.
    
    //Less bandwidth will be served if "getting worse" is reported N number of times.
    
    //More bandwidth will be served if the loss % of N number of RTCPs is below M.
    //N will scale up over time.
    
    //More bandwidth will be served if the client reports "getting better"
    
    //If the initial values of our dictionary items aren't yet in, put them in.
    InitializeDictionaryItems(inParams->inRTPStream);
    
    QTSS_RTPStreamObject theStream = inParams->inRTPStream;

    Bool16 ratchetMore = false;
    Bool16 ratchetLess = false;
    
    Bool16 clearPercentLossThinCount = true;
    Bool16 clearPercentLossThickCount = true;
    
    UInt32* uint32Ptr = NULL;
    UInt16* uint16Ptr = NULL;
    theLen = 0;
    
    UInt32 theNumLossesAboveTol = 0;
    UInt32 theNumLossesBelowTol = 0;
    UInt32 theNumWorses = 0;

    // Get our current counts for this stream. If any of these aren't present, something is seriously wrong
    // with this dictionary, so we should probably just abort
    (void)QTSS_GetValuePtr(theStream, sNumLossesAboveTolAttr, 0, (void**)&uint32Ptr, &theLen);
    if ((uint32Ptr != NULL) && (theLen == sizeof(UInt32)))
        theNumLossesAboveTol = *uint32Ptr;

    (void)QTSS_GetValuePtr(theStream, sNumLossesBelowTolAttr, 0, (void**)&uint32Ptr, &theLen);
    if ((uint32Ptr != NULL) && (theLen == sizeof(UInt32)))
        theNumLossesBelowTol = *uint32Ptr;

    (void)QTSS_GetValuePtr(theStream, sNumWorsesAttr, 0, (void**)&uint32Ptr, &theLen);
    if ((uint32Ptr != NULL) && (theLen == sizeof(UInt32)))
        theNumWorses = *uint32Ptr;
     
    
    //First take any action necessitated by the loss percent
    (void)QTSS_GetValuePtr(inParams->inRTPStream, qtssRTPStrPercentPacketsLost, 0, (void**)&uint16Ptr, &theLen);
    if ((uint16Ptr != NULL) && (theLen == sizeof(UInt16)))
    {
        UInt16 thePercentLoss = *uint16Ptr;
        thePercentLoss /= 256; //Hmmm... looks like the client reports loss percent in multiples of 256
#if FLOW_CONTROL_DEBUGGING
        qtss_printf("Percent loss: %d\n", thePercentLoss);
#endif
    
        //check for a thinning condition
        if (thePercentLoss > sLossThinTolerance)
        {
            theNumLossesAboveTol++;//we must count this loss

            //We only adjust after a certain number of these in a row. Check to see if we've
            //satisfied the thinning condition, and adjust the count
            if (theNumLossesAboveTol >= sNumLossesToThin)
            {
#if FLOW_CONTROL_DEBUGGING
                qtss_printf("Percent loss too high: ratcheting less\n");
#endif
                ratchetLess = true;
            }
            else
            {
#if FLOW_CONTROL_DEBUGGING
                qtss_printf("Percent loss too high: Incrementing percent loss count to %"_U32BITARG_"\n", theNumLossesAboveTol);
#endif
                (void)QTSS_SetValue(theStream, sNumLossesAboveTolAttr, 0, &theNumLossesAboveTol, sizeof(theNumLossesAboveTol));
                clearPercentLossThinCount = false;
            }
        }
        //check for a thickening condition
        else if (thePercentLoss < sLossThickTolerance)
        {
            theNumLossesBelowTol++;//we must count this loss
            if (theNumLossesBelowTol >= sLossesToThick)
            {
#if FLOW_CONTROL_DEBUGGING
                qtss_printf("Percent is low: ratcheting more\n");
#endif
                ratchetMore = true;
            }
            else
            {
#if FLOW_CONTROL_DEBUGGING
                qtss_printf("Percent is low: Incrementing percent loss count to %"_U32BITARG_"\n", theNumLossesBelowTol);
#endif
                (void)QTSS_SetValue(theStream, sNumLossesBelowTolAttr, 0, &theNumLossesBelowTol, sizeof(theNumLossesBelowTol));
                clearPercentLossThickCount = false;
            }           
        }
    }
    
    //Now take a look at the getting worse heuristic
    (void)QTSS_GetValuePtr(inParams->inRTPStream, qtssRTPStrGettingWorse, 0, (void**)&uint16Ptr, &theLen);
    if ((uint16Ptr != NULL) && (theLen == sizeof(UInt16)))
    {
        UInt16 isGettingWorse = *uint16Ptr;
        if (isGettingWorse != 0)
        {
            theNumWorses++;//we must count this getting worse
            
            //If we've gotten N number of getting worses, then thin. Otherwise, just
            //increment our count of getting worses
            if (theNumWorses >= sWorsesToThin)
            {
#if FLOW_CONTROL_DEBUGGING
                qtss_printf("Client reporting getting worse. Ratcheting less\n");
#endif
                ratchetLess = true;
            }
            else
            {
#if FLOW_CONTROL_DEBUGGING
                qtss_printf("Client reporting getting worse. Incrementing num worses count to %"_U32BITARG_"\n", theNumWorses);
#endif
                (void)QTSS_SetValue(theStream, sNumWorsesAttr, 0, &theNumWorses, sizeof(theNumWorses));
            }
        }
    }

    //Finally, if we get a getting better, automatically ratchet up
    (void)QTSS_GetValuePtr(inParams->inRTPStream, qtssRTPStrGettingBetter, 0, (void**)&uint16Ptr, &theLen);
    if ((uint16Ptr != NULL) && (theLen == sizeof(UInt16)) && (*uint16Ptr > 0))
        ratchetMore = true;
        
    //For clearing out counts below
    UInt32 zero = 0;

    //Based on the ratchetMore / ratchetLess variables, adjust the stream
    if (ratchetMore || ratchetLess)
    {
            
        UInt32 curQuality = 0;
        (void)QTSS_GetValuePtr(theStream, qtssRTPStrQualityLevel, 0, (void**)&uint32Ptr, &theLen);
        if ((uint32Ptr != NULL) && (theLen == sizeof(UInt32)))
            curQuality = *uint32Ptr;

        UInt32 numQualityLevels = 0;
        (void)QTSS_GetValuePtr(theStream, qtssRTPStrNumQualityLevels, 0, (void**)&uint32Ptr, &theLen);
        if ((uint32Ptr != NULL) && (theLen == sizeof(UInt32)))
            numQualityLevels = *uint32Ptr;
            
        if ((ratchetLess) && (curQuality < numQualityLevels))
        {
            curQuality++;
            if (curQuality > 1) // v3.0.1=v2.0.1 make level 2 means key frames in the file or max if reflected.
                curQuality = numQualityLevels;
            (void)QTSS_SetValue(theStream, qtssRTPStrQualityLevel, 0, &curQuality, sizeof(curQuality));
        }
        else if ((ratchetMore) && (curQuality > 0))
        {
            curQuality--;
            if (curQuality > 1)  // v3.0.1=v2.0.1 make level 2 means key frames in the file or max if reflected.
                curQuality = 1;
            (void)QTSS_SetValue(theStream, qtssRTPStrQualityLevel, 0, &curQuality, sizeof(curQuality));
        }
 
 
        Bool16 *startedThinningPtr = NULL;
        SInt32 numThinned = 0;
        (void)QTSS_GetValuePtr(inParams->inClientSession, qtssCliSesStartedThinning, 0, (void**)&startedThinningPtr, &theLen);
        if (false == *startedThinningPtr)
        {    
            (void) QTSS_LockObject(sServer);
            *startedThinningPtr = true; 
             
             (void)QTSS_GetValue(sServer, qtssSvrNumThinned, 0, (void*)&numThinned, &theLen);
             numThinned++;
             (void)QTSS_SetValue(sServer, qtssSvrNumThinned, 0, &numThinned, sizeof(numThinned));
             (void) QTSS_UnlockObject(sServer);
        }
        else if (curQuality == 0)
         {   
            (void) QTSS_LockObject(sServer);          
            *startedThinningPtr = false;

             (void)QTSS_GetValue(theStream, qtssSvrNumThinned, 0, (void*)&numThinned, &theLen);
             numThinned--;
             (void)QTSS_SetValue(sServer, qtssSvrNumThinned, 0, &numThinned, sizeof(numThinned));
             (void) QTSS_UnlockObject(sServer);
          }
        //When adjusting the quality, ALWAYS clear out ALL our counts of EVERYTHING. Note
        //that this is the ONLY way that the fNumGettingWorses count gets cleared
        (void)QTSS_SetValue(theStream, sNumWorsesAttr, 0, &zero, sizeof(zero));
#if FLOW_CONTROL_DEBUGGING
        qtss_printf("Clearing num worses count\n");
#endif
        clearPercentLossThinCount = true;
        clearPercentLossThickCount = true;
    }
    
    //clear thick / thin counts if we are supposed to.
    if (clearPercentLossThinCount)
    {
#if FLOW_CONTROL_DEBUGGING
        qtss_printf("Clearing num losses above tolerance count\n");
#endif
        (void)QTSS_SetValue(theStream, sNumLossesAboveTolAttr, 0, &zero, sizeof(zero));
    }
    if (clearPercentLossThickCount)
    {
#if FLOW_CONTROL_DEBUGGING
        qtss_printf("Clearing num losses below tolerance count\n");
#endif
    
        (void)QTSS_SetValue(theStream, sNumLossesBelowTolAttr, 0, &zero, sizeof(zero));
    }
    return QTSS_NoErr;
}

void    InitializeDictionaryItems(QTSS_RTPStreamObject inStream)
{
    UInt32* theValue = NULL;
    UInt32 theValueLen = 0;
    
    QTSS_Error theErr = QTSS_GetValuePtr(inStream, sNumLossesAboveTolAttr, 0, (void**)&theValue, &theValueLen);

    if (theErr != QTSS_NoErr)
    {
        // The dictionary parameters haven't been initialized yet. Just set them all to 0.
        (void)QTSS_SetValue(inStream, sNumLossesAboveTolAttr, 0, &theValueLen, sizeof(theValueLen));
        (void)QTSS_SetValue(inStream, sNumLossesBelowTolAttr, 0, &theValueLen, sizeof(theValueLen));
        (void)QTSS_SetValue(inStream, sNumWorsesAttr, 0, &theValueLen, sizeof(theValueLen));
    }
}
